Titlebook: Brownian Motion; Elements of Colloid Albert P. Philipse Textbook 2018 Springer Nature Switzerland AG 2018 Understanding colloidal suspenti

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Hing Chao,Daniel Jaquet,Loretta Kimwnian motion’ is the habitual term for colloids; the naming is appropriate as it was Robert Brown who was the first to publish on systematic observations of colloids in motion. Below we will outline Brown’s findings and summarize their history of reception, with a crucial role for the kinetic theory

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https://doi.org/10.1007/978-981-19-2037-0e magnification of the microscope (Fig.?.). Thus one cannot differentiate this distance unambiguously with respect to time to obtain a velocity. Instead we have to focus on the . of the particle, defined as the shortest distance between two positions of the colloid. How the squared displacement by d

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https://doi.org/10.1007/978-981-19-2037-0in vast numbers interstellar dust clouds.) is a dual process: the thermal motion of colloids in any direction is, owing to the liquid’s incompressibility, accompanied by oppositely directed flow in the colloid’s surroundings.

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Longobard Warriors in the Seprio Judicariang) colloidal particles to encounter each other. To get an idea of the time scale involved we compute the time taken by a sphere of radius . to diffuse a mean-square-displacement equal to .—the configurational relaxation time . introduced in Chap.?.. For spheres in water at room temperature.

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Brownian Motion978-3-319-98053-9Series ISSN 2192-4791 Series E-ISSN 2192-4805

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https://doi.org/10.1007/978-981-19-2037-0in vast numbers interstellar dust clouds.) is a dual process: the thermal motion of colloids in any direction is, owing to the liquid’s incompressibility, accompanied by oppositely directed flow in the colloid’s surroundings.

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https://doi.org/10.1007/978-3-319-98053-9Understanding colloidal suspentions; Thermal diffusion; Stokes-Einstein diffusion coefficient; Fick‘s l